Publications
2020, Steiner, A.K., et al., Observed Temperature Changes in the Troposphere and Stratosphere from 1979 to 2018, Journal of Climate, 33(19), 8165–8194, https://doi.org/10.1175/JCLI-D-19-0998.1
Tags: Lidar, Temperature
2019, Huang, G., Newchurch, M. J., Kuang, S., & Ouwersloot, H. G., A Case Study of Ozone Diurnal Variation in the Convective Boundary Layer in the Southeastern United States Using Multiple Observations and Large-Eddy Simulation, Climate, 7(4), 53
Tags: Diurnal, Lidar, Ozone
2015, Pattantyús-Ábrahám, M., W. Steinbrecht, Temperature Trends over Germany from Homogenized Radiosonde Data, Journal of Climate, 28, 5699–5715, https://doi.org/10.1175/JCLI-D-14-00814.1
Tags: Sonde, Temperature, Trends
2005, Gruzdev, A.N., Elokhov A.S., Ground-based spectrometric measurements of vertical distribution and column abundance of NO2 at Zvenigorod, Russia, SPIE, 5832, 292-299, https://doi.org/10.1117/12.619837
Tags: NO2, UVVis
2004, Randel, W., Udelhofen, P., Fleming, E., Geller, M., Gelman, M., Hamilton, K., Karoly, D., Ortland, D., Pawson, S., Swinbank, R., Wu, F., Baldwin, M., Chanin, M.L., Keckhut, P., Labitzke, K., Remsberg, E., Simmons, A. and Wu, D., SPARC Intercomparison of Middle Atmosphere Climatologies, Journal of Climate, 17(5), 986-1003
Tags: Climatology, Lidar
1998, Elokhov, A.S., Gruzdev A.N. Measurements of column contents and vertical distribution of NO2 at Zvenigorod Scientific Station, SPIE, Vol. 3583, pp. 547-554
Tags: NO2, UVVis
1997, Thayer, J.P., N. B. Nielsen, R. Warren, C. J. Heinselman, and J. Sohn, Rayleigh lidar system for middle atmosphere research in the arctic, Optical Engineering, 36, 2045-2061
Tags: Lidar
1995, McGee, T.J., M. Gross, U.N. Singh, J. J. Butler, and P. Kimvilakani, An Improved Stratospheric Ozone Lidar, Optical Engineering, 34, 1421-1430
Tags: Lidar, Ozone
1995, Kampfer, N., Microwave remote sensing of the atmosphere in Switzerland, Optical Engineering, 34, 2413-2424
Tags: Microwave